KR100379384B1 - control information transmission Method for CPCH - Google Patents

Abstract

The present invention relates to the next generation mobile communication, and in particular, an uplink common packet channel (CPCH) used for packet transmission in a mobile communication system of a wideband code division multiple access (hereinafter, abbreviated as W-CDMA) scheme. The present invention relates to a method of transmitting control information for a channel.

In contrast, in the present invention, when the UE is in a state of transmitting a packet through the currently assigned common packet channel (CPCH), the emergency stop control information can be transmitted to the UE with a minimum time delay. Provide a method.

Description

Control information transmission method for common packet channel {control information transmission method for CPCH}

The present invention relates to the next generation mobile communication, and more particularly, to a method for transmitting control information on an uplink (UL) common packet channel (CPCH) used for packet transmission in a W-CDMA mobile communication system.

In general, the Third Generation Partnership Project (3GPP) describes the definition and description of transport channels and physical channels of uplink (UL) and downlink (UL). have.

Among the transport channels defined in the 3GPP standard, a common packet channel (CPCH) is used in uplink (UL), and is used to transmit packets of relatively medium or small size, and a downlink (DL) physical channel will be described later. It relates to a Dedicated Physical Control Channel (hereinafter, abbreviated as DPCCH), which is one of two types of a dedicated physical channel (DPCH).

One of the physical channels, the dedicated physical channel (DPCH), generally consists of three hierarchical structures: superframes, radio frames, and timeslots. ) Shows the structure used in downlink (DL) of the structure.

There are two types of Dedicated Physical Channels (DPCHs), which are Dedicated Physical Data Channels (hereinafter, abbreviated as DPDCHs) for transmitting data of higher layers and DPCCHs for delivering control information of physical layers. to be.

1 is a diagram illustrating a structure of a downlink (DL) dedicated physical channel (DPCH) according to the 3GPP standard.

In FIG. 1, a DL DPCCH carrying control information includes a pilot field, a transport format combination indicator (TFCI) field, a feed-back information (FBI) field, and transmission. It consists of several fields, such as the transport power control (TPC) field.

FIG. 2 is a diagram for explaining a relationship between a downlink DPCCH and a common packet channel (CPCH) according to the 3GPP standard. The illustrated downlink (DL) DPCCH is used for power control of a common packet channel (CPCH). When the downlink (DL) DPCCH is used for power control of a common packet channel (CPCH), since there is no data transmission on the dedicated physical channel (DPCH), only the DPCCH is transmitted without the DPDCH. In this case, only the pilot bit and the TPC bit are transmitted to the DPCCH. In this case, channel information about the downlink (DL) DPCCH and the DPDCH is shown in Table 1.

Channel Bit Rate (Kbps) Channel symbol rate (Ksps) Spread-ing Factor Bits per frame Bits per Slot (bits / slot) Bits per Slot in DPDCH (bits / slot) Bits per Slot in DPCCH (bits / slot) DPDCH DPCCH Sum N _data1 N _data2 N _TFCI N _TPC N _pilot 15 7.5 512 60 90 150 10 2 2 0 2 4

Since the 3GPP system using these channels is asynchronous, a random access scheme is applied in order for multiple user equipments (UEs) to transmit signals effectively.

For a user side (UE) transmitting a packet in a random access scheme (Contention), the network side (UTRAN: Universal Mobile Terrestrial RadioAccess Network) allocates an available common packet channel (CPCH) to the user side (UE).

After that, the packet is transmitted through the uplink (UL) common packet channel (CPCH). Prior to the packet transmission, power control is performed on the uplink (UL) common packet channel (CPCH) using only the DPCCH for a predetermined time.

First, the network side (UTRAN) measures a Signal to Interference Ratio (SIR) for a common packet channel (CPCH), and based on this measurement, generates a transmission power control (TPC) bit and downlinks. (DL) Transmit via DPCCH.

In addition, the UE measures the signal-to-interference ratio (SIR) for the downlink (DL) DPCCH, and then, based on the measured value, generates a transmit power control (TPC) bit through the uplink (UL) DPCCH. send.

After sufficient power control necessary for packet transmission is completed, the packet is transmitted through an uplink (UL) common packet channel (CPCH).

While the packet is being transmitted through the common packet channel (CPCH), the UE does not look at other channels.

However, while the corresponding packets are being transmitted through the common packet channel CPCH allocated to the UE, there is a case in which packet transmission stops or the channel is released through the common packet channel CPCH.

However, related standards proposed in 3GPP still have appropriate control procedures for emergency stops, such as interrupting packet transmission on the common packet channel (CPCH) or urgently releasing the common packet channel (CPCH) on which packets are being transmitted. Is not presented.

Separately, when the UE is transmitting a packet through a common packet channel (CPCH), a broadcasting channel (BCH: Broadcasting Channel) which is another channel, for example, a transmission channel, does not go through a downlink (DL) dedicated physical channel (DPCH). Emergency stop control information may be transmitted through a first common control physical channel (PCCPCH), which is a downlink (DL) physical channel mapped with the primary channel. However, since the control information received through the first common control physical channel (PCCPCH) can be restored to the original information only after decoding, the time until it can be known whether the control information for emergency stop is the minimum control information. A longer time delay occurs than the transport time interval (TTI) of the corresponding channel to transmit.

An object of the present invention has been made in view of the above, and when the user side (UE) is in a state of transmitting a packet through the currently assigned common packet channel (CPCH), the user side (UE) with a minimum time delay It provides a method to transmit the emergency stop control information.

A feature of the control information transmission method for a common packet channel (CPCH) according to the present invention for achieving the above object is that the user terminal (UE) through the currently assigned uplink (UL) common packet channel (CPCH) corresponding packet Transmitting a specific control information to a user side (UE) transmitting its own packet, the network side (UTRAN) controls the corresponding channel through a dedicated physical channel (DPCH) of a downlink (DL). And transmitting the information to the user side (UE).

Preferably, the step of transmitting the control information includes inserting a specific bit pattern into the data channel DPDCH of the downlink (DL) dedicated physical channel (DPCH) by the network side (UTRAN) to the user side (UE). send. Here, when the network side (UTRAN) inserts and transmits a specific bit pattern to the data channel (DPDCH) of the downlink (DL) dedicated physical channel (DPCH), the control of the downlink (DL) dedicated physical channel (DPCH) The transmission power drop command bit is inserted into the channel DPCCH and transmitted.

In the transmitting of the control information, the network side UTRAN inserts a specific bit pattern into a pilot field constituting a control channel DPCCH of the downlink (DL) dedicated physical channel (DPCH). UE or the user side by inserting a specific bit pattern into a transmission power control (TPC) field constituting a control channel (DPCCH) of the downlink (DL) dedicated physical channel (DPCH) by the network side (UTRAN) Send to (UE).

A feature of the method for transmitting emergency stop control information for a common packet channel (CPCH) according to the present invention for achieving the above object is that the UE (UE) through the currently assigned uplink (UL) common packet channel (CPCH) When transmitting the packet and controlling information for instructing the UE to stop transmitting the packet, the network side UTRAN determines a specific bit in the dedicated physical channel (DPCH) of the downlink (DL). Inserting a pattern and transmitting it to the user side (UE); and after the user side (UE) identifies the specific bit pattern transmitted, stopping the packet transmission through the common packet channel (CPCH).

1 is a diagram illustrating a structure of a downlink dedicated physical channel (DPCH) according to the 3GPP standard;

2 is a view for explaining the relationship between a downlink dedicated physical control channel (DPCCH) and a common packet channel (CPCH) according to the 3GPP standard.

3 is a view for explaining various embodiments for transmitting control information on a common packet channel (CPCH) of the present invention.

4 is a block diagram illustrating an example of a method for transmitting control information on a common packet channel (CPCH) of the present invention.

* Description of the symbols for the main parts of the drawings *

1: De-mux 2: first comparator

3: second comparator 4: counter

Hereinafter, a preferred embodiment of a control information transmission method for a common packet channel (CPCH) according to the present invention will be described with reference to the accompanying drawings.

The following is a common packet channel according to the present invention for the case of not transmitting the transport format combining indicator (TFCI) bits and the case of transmitting the transport format combining indicator (TFCI) bits through a downlink (DL) DPCCH. A control information transmission method for CPCH will be described.

3 is a diagram illustrating various embodiments for transmitting control information on a common packet channel (CPCH) of the present invention.

First, when the transport format combining indicator (TFCI) bit is not transmitted through the downlink (DL) DPCCH (or when there is no TFCI field in the DPCCH), the control information for the common packet channel (CPCH) is downlink (this). ) Is transmitted using DPDCH, and in some cases, fields of downlink (DL) DPCCH for transmitting control information are used in combination. In this case, since control information such as an emergency stop must be transmitted without a transmission delay, in the present invention, control bits for notifying emergency stop using the entire radio frame are continuously transmitted in slot units.

As a first example of this, downlink (DL) DPCCH is used for power control of a common packet channel (CPCH) in a general state in which a packet is currently transmitted through an uplink (UL) common packet channel (CPCH). DPDCH is not transmitted. However, in the present invention, in order to transmit the control information for emergency stop to the UE (UE), a bit string of a specific pattern is transmitted through the DPDCH.

As another second example, in the present invention, the downlink (DL) DPCCH is used for power control of the common packet channel (CPCH) in a normal state in which a packet is currently transmitted through a downlink (UL) common packet channel (CPCH). Bit string of a specific pattern is repeatedly transmitted to the DPDCH in the normal state, and bit sequence of another pattern is transmitted through this DPDCH in the emergency stop control state in which the control information for emergency stop must be transmitted to the UE. send. For example, in the normal state, "0000" is transmitted to the DPDCH, and in the emergency stop control state, "1111" is transmitted.

As another third example, power control for notifying a power down command to the TPC field of a downlink (DL) DPCCH when using the first example or the second example described above and simultaneously in an emergency stop control state. Transmit by inserting bits.

As another fourth example, in a general state in which a current packet is transmitted through a downlink (UL) common packet channel (CPCH), a general pilot bit pattern is inserted into a pilot field of a downlink (DL) DPCCH and transmitted. In the emergency stop control state in which control information for emergency stop is to be transmitted to the user side (UE), any other pilot bit pattern is transmitted. For example, in the emergency stop control state, a separate pilot bit pattern " 0000 " that was not transmitted in the normal state is transmitted, or a pilot bit pattern having orthogonality to the pilot bit pattern transmitted in the normal state is transmitted. Specifically, if the bit string inserted into the pilot field in the normal state is N bits, the NB bit of the least significant bit (LSB) or the most significant bit (MSB) is inverted before being inserted. To transmit. Alternatively, the code is inverted and inserted after the pilot bit pattern in the normal state is transmitted.

As another fifth example, power control for notifying a power down command to the TPC field of a downlink (DL) DPCCH when using the first example or the second example described above and simultaneously in an emergency stop control state. By inserting the bit and transmitting the pilot bit pattern different from the pilot bit pattern transmitted in the normal state as in the fourth example described above, the DL (PC) DPCCH is transmitted. In this case, when the bit pattern transmitted through the DPDCH and the pilot bit pattern transmitted through the DPCCH are in a normal state and in an emergency stop control state, they are orthogonal to each other or have different codes.

As another sixth example, a bit pattern inserted into a TPC field of a downlink (DL) DPCCH when using the first example or the second example described above and in an emergency stop control state is used as a DPDCH. Orthogonality with the bit pattern transmitted through, and transmits the pilot bit pattern having orthogonality to the pilot bit pattern transmitted in the normal state as in the fourth example described above to the downlink (DL) DPCCH. For example, the bit inserted into the TPC field is set to "1, -1" or "-1,1". In this case, the bit pattern transmitted through the DPDCH in one slot is orthogonal or different from each other when the TPC bit pattern and the pilot bit pattern transmitted through the DPCCH are in a normal state and an emergency stop control state. Have

The following describes a case of transmitting a transport format combining indicator (TFCI) bit through a downlink (DL) DPCCH. In this case, the channel information for the downlink (DL) DPCCH and DPDCH is shown in Table 2.

Channel Bit Rate (Kbps) Channel symbol rate (Ksps) Spread-ing Factor Bits per frame Bits per Slot (bits / slot) Bits per Slot in DPDCH (bits / slot) Bits per Slot in DPCCH (bits / slot) DPDCH DPCCH Sum N _data1 N _data2 N _TFCI N _TPC N _pilot 15 7.5 512 60 90 150 10 0 2 2 2 4

In this case, when the transport format combining indicator (TFCI) bit is transmitted through the downlink (DL) DPCCH, other application examples except for the sixth example are possible.

However, even when transmitting a transport format combination indicator (TFCI) bit through a downlink (DL) DPCCH, the bit pattern of the remaining DPCCH except for the transport format combination indicator (TFCI) bit in one slot is different from the bit pattern of the DPDCH. Orthogonal or different codes can be applied. The control signal may be transmitted using data of the transport format combining indicator (TFCI) field. When information for any purpose other than emergency stop is transmitted in the transport format combination indicator (TFCI) field, 10 bits of information bits per frame are shared and used. For example, 8 bits out of 10 bit information bits are used for channel information transmission, and the remaining 2 bits are used for emergency stop. At this time, the contents of 2 bits allocated for emergency stop are "00" in normal state and "11" in emergency stop control state.

The following describes in more detail a procedure for transmitting control information on a common packet channel (CPCH) by applying each of the embodiments listed above.

4 is a block diagram illustrating an example of a method for transmitting control information for a common packet channel (CPCH) of the present invention.

First, if the first and second examples described above are applied to the configuration of FIG. 4, the user side (UE) decodes data in the DPDCH in addition to decoding the DPCCH. In the first example, when a bit string of a specific pattern is transmitted through the DPDCH, unlike the conventional case, since DPDCH transmission energy is used, the UE (UE) determines whether energy is present in the DPDCH and whether a bit string of a specific pattern is transmitted through the DPDCH. By checking the control information such as emergency stop can be recognized. In the second example, when the UE continuously decodes the DPDCH and determines that the bit string of another pattern is transmitted from the bit pattern in the normal state, the UE recognizes that control information such as emergency stop is transmitted.

Thereafter, if emergency stop control information is continuously received in a predetermined number of slots, the UE (UE) stops packet transmission through the common packet channel (CPCH).

The following is a case where the third example described above is applied to the apparatus configuration of FIG. 4. In this case, the power control bit for inserting the power down command is inserted into the TPC field of the downlink (DL) DPCCH in the emergency stop control state while using the first example or the second example described above. do. This is to ensure that when applying the first and second examples, the UE does not use power as a full while observing multiple slots.

The following is a case where the above fourth example is applied to the apparatus configuration of FIG. 4. In this case, a general pilot bit pattern is inserted into a pilot field of a downlink (DL) DPCCH in a general state in which a current packet is transmitted through a downlink (UL) common packet channel (CPCH). Any other pilot bit pattern is transmitted when in an emergency stop control state where information must be delivered to the UE. In this case, unlike the first and second examples described above, the UE does not need to continuously decode the DPDCH.

The following is a case where the fifth example described above is applied to the apparatus configuration of FIG. 4. In this case, the power control bit for inserting the power down command is inserted into the TPC field of the downlink (DL) DPCCH in the emergency stop control state while using the first example or the second example described above. In addition, as shown in the fourth example, the pilot bit pattern having orthogonality to the pilot bit pattern transmitted in the normal state is transmitted on the downlink (DL) DPCCH. In this case, first, the UE continuously decodes the DPDCH, and if it is recognized whether energy exists in the DPDCH and whether a bit string of a specific pattern is transmitted through the DPDCH, the UE side may enter a pilot field of the next DL DPCCH. This is confirmed by a specific pilot bit pattern representing the emergency stop control information. In this case, on the other hand, when it is recognized whether a specific pilot bit pattern indicating emergency stop control information is transmitted in a pilot field of a downlink (DL) DPCCH, the next UE (UE) continuously decodes the DPDCH and energizes the DPDCH. Check whether this is present and whether a bit string of a specific pattern is transmitted through the DPDCH. Separately, such an operation may be performed simultaneously to confirm emergency stop control information.

The following is a case where the sixth example described above is applied to the apparatus configuration of FIG. 4. In this case, the bit pattern transmitted through the DPDCH and the bit pattern transmitted through the DPCCH are compared with each other during one slot, and whether emergency stop control information is transmitted according to whether or not the bit patterns of these two channels are orthogonal to each other. Check.

As described above, the UE may receive and confirm control information such as emergency stop.

When it is necessary to send an urgent control command such as an emergency stop to the user side UE, the network side UTRAN uses a predetermined method among the examples listed above.

At this time, emergency stop control information is continuously transmitted through each slot.

The UE (UE) continuously observes whether the emergency stop control information exists, and when the initial control information is recognized, the UE (UE) detects the emergency stop control information by observing a certain number of slot sections.

Thereafter, the UE (UE) stops packet transmission through the common packet channel (CPCH) when emergency stop control information is continuously received in a predetermined number of slots.

The network side UTRAN then checks whether the packet transmission is interrupted from the user side UE after transmitting the emergency stop control command.

According to the control information transmission method for the common packet channel (CPCH) according to the present invention described so far, when the user side (UE) is in a state of transmitting a packet through the currently assigned common packet channel (CPCH), common Urgent control information is transmitted without delay through downlink (DL) DPCCH, DPDCH, or both channels associated with the packet channel (CPCH).

In addition, there is an effect that not only the emergency stop control information can be transmitted without delay but also the control information can be transmitted more reliably.

Claims (5)

Transmitting, by the UE, a corresponding packet through an uplink (UL) common packet channel (CPCH) currently allocated; When a specific control information is to be transmitted to a user side (UE) transmitting its own packet, the network side (UTRAN) assigns a specific bit pattern to a data channel (DPDCH) of a downlink (DL) dedicated physical channel (DPCH). Control information transmission method for a common packet channel (CPCH) characterized in that the step of inserting and transmitting. 2. The downlink (DL) dedicated physical channel according to claim 1, wherein when the network side (UTRAN) inserts and transmits a specific bit pattern to a data channel (DPDCH) of the downlink (DL) dedicated physical channel (DPCH), the downlink (DL) dedicated physical channel is transmitted. The control information transmission method for a common packet channel (CPCH), characterized in that for transmitting by inserting the transmission power drop command bit in the control channel (DPCCH) of the (DPCH). The method of claim 1, wherein the network side UTRAN inserts a specific bit pattern into a pilot field constituting a control channel (DPCCH) of the downlink (DL) dedicated physical channel (DPCH) and transmits it to the user side (UE). Control information transmission method for a common packet channel (CPCH), characterized in that. The user side of claim 1, wherein the network side inserts a specific bit pattern into a transmission power control (TPC) field constituting a control channel (DPCCH) of the downlink (DL) dedicated physical channel (DPCH). Control information transmission method for a common packet channel (CPCH), characterized in that for transmitting to (UE). Transmitting, by the UE, a corresponding packet through an uplink (UL) common packet channel (CPCH) currently allocated; When transmitting control information for instructing the UE to stop transmitting a packet, the network side UTRAN inserts a specific bit pattern into a dedicated physical channel DPCH of a downlink DL to transmit the control information to the UE. ), Stopping the packet transmission through the common packet channel (CPCH) after the user side (UE) confirms the transmitted specific bit pattern; and transmitting the emergency stop control information for the common packet channel (CPCH) .